Microhydrodynamics : principles and selected applications /

"Microhydrodynamics concerns the flow and related phenomena pertinent to the motion of small particles suspended in viscous fluids. This text focuses on determining the motion of a particle or particles through a viscous fluid in bounded and unbounded flow. Its central theme is the mobility rel...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Kim, Sangtae (Autor), Karrila, Seppo J. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boston : Butterworth-Heinemann, [1991]
Colección:Butterworth-Heinemann series in chemical engineering.
Temas:
Hydrodynamics.
Hydrodynamique.
TECHNOLOGY & ENGINEERING > Hydraulics.
Hydrodynamics
Hydrodynamik
Suspension
Teilchenbewegung
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Organization Scheme
  • Governing Equations and Fundamental Theorems
  • Microhydrodynamic Phenomena
  • Objective and Scope
  • The Governing Equations
  • The Equation of Continuity
  • The Momentum Balance
  • The Stokes Equations
  • Boundary Conditions for Fluid Flows
  • The Energy Balance
  • Colloidal Forces on Particles
  • General Properties and Fundamental Theorems
  • Energy Dissipation Theorems
  • Uniqueness
  • Minimum Energy Dissipation
  • Lower Bounds on Energy Dissipation
  • Energy Dissipation in Particulate Flows
  • Energy Dissipation in Mobility Problems
  • Lorentz Reciprocal Theorem
  • Integral Representations
  • The Green's Function for Stokes Flow
  • Integral Representation with Single and Double Layer Potentials
  • Representation of Flows Outside a Rigid Particle
  • The Multipole Expansion
  • Dynamics of a Single Particle
  • The Disturbance Field of a Single Particle in a Steady Flow
  • The Far Field Expansion: Rigid Particles and Drops
  • Singularity Solutions
  • Singularity System for Spheres
  • The Spherical Drop and Interior Flows
  • Singularity System for Ellipsoids
  • Singularity System for Prolate Spheroids
  • Singularity System for Oblate Spheroids
  • Slender Body Theory
  • Faxen Laws
  • Ellipsoids and Spheroids
  • The Spherical Drop
  • Solutions in Spherical Coordinates
  • Lamb's General Solution
  • The Connection with the Multipole Expansion
  • Force, Torque, and Stresslet
  • Matching of Boundary Conditions
  • The Adjoint Method
  • An Orthonormal Basis for Stokes Flow
  • The Stokes Streamfunction.

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